运用时间-剂量-死亡率模型分析了各温度下白僵菌对桃蚜的毒力。
A time dose mortality model was used for analyzing the mortality rates as affected by temperature.
运用时间-剂量-死亡率模型,对死亡率随时间和剂量的变化作了拟合。
A time dose mortality model was applied to analyze the variation of mortality rates as affected by both time and dosage.
所获逐日观察结果用时间-剂量-死亡率模型进行模拟分析,拟合良好。
The resulting data were well fitted to time dose mortality model, yielding estimates of parameters for time and dose effects of each isolate.
经时间-剂量-死亡率模型(TDM)模拟分析得到时间和剂量效应参数。
The result was analyzed by time-dose-mortality (TDM) modeling technique and obtained the parameters of time and dose effect.
所得数据很好地拟合时间-剂量-死亡率模型,由此获得用于估计毒力指标的时间和剂量效应参数。
The resulting data were well fitted to time-dose-mortality model, generating parameters of time and dose effects for estimation of virulence indices.
不同剂量组的尾蚴平均死亡率均随着药物作用时间的延长而增大(P<0.01)。
With the action time of the drug extending, the mortality of cercaria increased(P<0.01).
亚致死剂量锐劲特处理小菜蛾试虫后,其死亡率随着剂量的升高、观察时间的延长而增加。
After being treated at the sublethal dosages, the mortality of tested insects increased with fipronil concentration and observation time.
亚致死剂量锐劲特处理小菜蛾试虫后,其死亡率随着剂量的升高、观察时间的延长而增加。
After being treated at the sublethal dosages, the mortality of tested insects increased with fipronil concentration and observation time.
应用推荐